Bioactive nanoengineered hydrogels for bone tissue engineering: A growth-factor-free approach

ACS Nano

Volumn 9, Issue 3, 2015, Pages 3109-3118

  Xavier, Janet R ^a   Thakur, Teena ^a   Desai, Prachi ^a   Jaiswal, Manish K ^a   Sears, Nick ^a   Cosgriff Hernandez, Elizabeth ^a,b   Kaunas, Roland ^a   Gaharwar, Akhilesh K ^a,b  

^a Texas A M University   (United States)

^b Department of Electrical and Computer Engineering   (United States)

Author keywords

bone regeneration; nanocomposite hydrogels; scaffolds; synthetic nanosilicates; tissue engineering; two dimensional (2D) nanoparticles

Indexed keywords

COLLAGEN; NANOCOMPOSITES; PHOSPHATASES; PORE SIZE; SCAFFOLDS; SCAFFOLDS (BIOLOGY); STIFFNESS MATRIX; TISSUE; TISSUE ENGINEERING; TISSUE REGENERATION;

ALKALINE PHOSPHATASE ACTIVITY; BONE REGENERATION; BONE TISSUE ENGINEERING; DEGREE OF ANISOTROPY; IN-VITRO EVALUATION; NANOCOMPOSITE HYDROGELS; SYNTHETIC NANOSILICATES; TWO DIMENSIONAL (2 D);

HYDROGELS;

BIOMATERIAL; COLLAGEN; GELATIN; HYDROGEL; NANOCOMPOSITE; SILICATE;

ANIMAL; BONE; BONE DEVELOPMENT; BONE MINERALIZATION; CELL ADHESION; CELL LINE; CHEMISTRY; CYTOLOGY; DRUG EFFECTS; HYDROGEL; MECHANICS; MOUSE; NANOTECHNOLOGY; PHARMACOLOGY; PHYSIOLOGY; PROCEDURES; TISSUE ENGINEERING;

ANIMALS; BIOCOMPATIBLE MATERIALS; BONE AND BONES; CALCIFICATION, PHYSIOLOGIC; CELL ADHESION; CELL LINE; COLLAGEN; GELATIN; HYDROGELS; MECHANICAL PROCESSES; MICE; NANOCOMPOSITES; NANOTECHNOLOGY; OSTEOGENESIS; SILICATES; TISSUE ENGINEERING;

EID: 84925651941     PISSN: 19360851     EISSN: 1936086X     Source Type: Journal    
DOI: 10.1021/nn507488s     Document Type: Article

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